Neural Agrin Induces Ectopic Postsynaptic Specializations in Innervated Muscle Fibers

Meier, Thomas; Hauser, D. M.; Chiquet, Matthias; Landmann, Lukas; Rüegg, Markus A.; Brenner, Hans Rudolf

doi:10.1523/jneurosci.17-17-06534.1997

Cited by 124 publications

(113 citation statements)

References 82 publications

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“…Analysis of rapsyn mutant mice indicates that Musk may activate a signaling pathway that directly stimulates synapse-specific transcription (Gautam et al, 1995). Expression of ectopic agrin or activated Musk in adult myofibers, however, stimulates AChR transcription in an ErbBdependent manner, suggesting that synapse-specific expression may require the Musk-dependent recruitment of a Nrg-1/ErbB signaling complex to synaptic sites (Jones et al, 1999;Meier et al, 1997;Moore et al, 2001;Rimer et al, 1998). Our experiments indicate that the Musk juxtamembrane region contains sequences that are crucial for synapse-specific transcription, but they do not shed light on whether these sequences act in a manner that is independent or dependent on Nrg-1/ErbB signaling.…”

Section: Discussionmentioning

confidence: 99%

“…Herbst, E. Avetisova and S. J. Burden MMT chimera contains sequences that are sufficient for clustering postsynaptic proteins Agrin/Musk signaling is necessary and sufficient to cluster several muscle-derived proteins in addition to AChRs (DeChiara et al, 1996;Gautam et al, 1996;Meier et al, 1997;Rimer et al, 1998). We therefore examined whether the MMT chimera contains sequences sufficient for clustering these proteins at synaptic sites.…”

Section: A Musk/trka Chimera Can Substitute For Endogenous Musk In Vivomentioning

confidence: 99%

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Restoration of synapse formation inMuskmutant mice expressing a Musk/Trk chimeric receptor

Herbst

Avetisova²,

Burden³

2002

Development

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Development 129, [5449][5450][5451][5452][5453][5454][5455][5456][5457][5458][5459][5460] On page 5454 of this article, the first paragraph in the section 'Motor axons extend…' should read 'Based on the expression of transgenes containing the MCK enhancer and promoter, the endogenous MCK gene is activated in skeletal muscle at ~E13.5 (S. Hauschka, personal communication), 1 day after motor axons first enter the muscle.'We apologise to the authors and readers for this mistake. ERRATUM INTRODUCTIONNeuromuscular synapses form following a series of complex interactions between motor neurons, muscle fibers and Schwann cells (Burden, 1998;Sanes and Lichtman, 1999;Schaeffer et al., 2001;Son and Thompson, 1995). Agrin, a 200 kDa protein synthesized by motor neurons, is a critical synaptic signaling molecule that organizes postsynaptic differentiation by stimulating Musk, a receptor tyrosine kinase (RTK) expressed selectively in skeletal muscle McMahan, 1990). Embryos lacking agrin or Musk fail to form neuromuscular synapses and consequently die at birth due to their failure to move or breathe (DeChiara et al., 1996;Gautam et al., 1996). Neurogenesis and myogenesis appear normal in agrin and Musk mutant embryos, but skeletal muscle-derived proteins, including acetylcholine receptors (AChRs), which are normally concentrated at synaptic sites, are instead expressed uniformly in muscle of Musk mutant mice. In addition, AChR genes, which are transcribed selectively in synaptic nuclei of wild-type mice, are expressed throughout the myofiber of Musk mutant mice. Presynaptic differentiation is also aberrant in agrin and Musk mutant mice, as motor axons fail to stop or differentiate and instead wander throughout the muscle. Taken together with experiments showing that Musk is activated by agrin, these results indicate that agrin stimulation of Musk leads to clustering of critical musclederived proteins, including AChRs, activation of synapsespecific gene expression and the induction and/or reorganization of a retrograde signal for presynaptic differentiation (DeChiara et al., 1996;Gautam et al., 1996;Glass et al., 1996). Domains in Musk that are important for Musk signaling have been defined by introducing wild-type or mutant forms of Musk into Musk mutant muscle cell lines (Herbst and Burden, 2000;Zhou et al., 1999). These studies have revealed an essential role for one of the two juxtamembrane tyrosine residues in Musk (Y553), as mutation of this tyrosine abrogates the ability of agrin to induce clustering or tyrosine phosphorylation of AChRs in cultured myotubes. This tyrosine appears to have a dual function in Musk signaling, as this tyrosine is required both to activate Musk kinase activity fully and to recruit a signaling component(s) that functions downstream from Musk (Herbst and Burden, 2000). Evidence for such a dual role is based upon analysis of Musk/TrkA chimeric receptors. Agrin stimulates tyrosine phosphorylation of a chimeric receptor composed of the extracellular and transmembrane regions of Musk, and the intrac...

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Section: Discussionmentioning

confidence: 99%

Section: A Musk/trka Chimera Can Substitute For Endogenous Musk In Vivomentioning

confidence: 99%

Restoration of synapse formation inMuskmutant mice expressing a Musk/Trk chimeric receptor

Herbst

Avetisova²,

Burden³

2002

Development

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“…We performed immunocytochemistry to detect the identity of the processes traversing the cell-free 2 mm gap in the wells, evaluating immunostaining for microtubuleassociated protein 2 (MAP2), a specific marker for the dendrites and neuronal somata, and NaCh protein, which stains the axons in addition to the dendrites and neuronal somata. Cultures were fixed in 4% paraformaldehyde and 0.1 M PBS for 20 min, permeabilized with 0.1% Triton X-100 (PBST) for 20 min at room temperature (RT), and double labeled with monoclonal mouse anti-MAP2 antibody (Ab) (AP20; 1:500; Sigma) (Binder et al, 1986) and polyclonal rabbit anti-pan NaCh Ab (06 -811; 1:80; Upstate Biotechnology, Lake Placid, NY) specific for the intracellular III-IV loop of the NaCh ␣-subunit [ amino acid (aa) 1491-1508 of full length, aa 1-2005; P04775), a highly conserved segment of the intracellular III-IV loop (Miller et al, 1983;Dugandzija-Novakovic et al, 1995;Vabnick et al, 1996;Meier et al, 1997;Rasband et al, 1999) at 4°C overnight. After rinsing with PBS, the cultures were incubated with Alexa 594-conjugated anti-mouse IgG (Molecular Probes, Eugene, OR) and Alexa 488-conjugated anti-rabbit IgG (Molecular Probes) for 60 min at RT.…”

Section: Methodsmentioning

confidence: 99%

Traumatic Axonal Injury Induces Proteolytic Cleavage of the Voltage-Gated Sodium Channels Modulated by Tetrodotoxin and Protease Inhibitors

Iwata¹,

Stys²,

Wolf³

et al. 2004

J. Neurosci.

198

165

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We demonstrated previously that dynamic stretch injury of cultured axons induces structural changes and Ca 2ϩ influx modulated by tetrodotoxin (TTX)-sensitive voltage-gated sodium channels (NaChs). In the present study, we evaluated potential damage to the NaCh ␣-subunit, which can cause noninactivation of NaChs. In addition, we explored the effects of pre-injury and post-injury treatment with TTX and protease inhibition on proteolysis of the NaCh ␣-subunit and intra-axonal calcium levels (

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“…The LG domains of agrin were also found to bind strongly to a-dystroglycan and to sulfatides (Gesemann et al 1998). In the case of the neural agrin splice variant released by the peripheral nerve terminus, the interaction likely helps retain agrin within the basement membrane, enhancing its activity in neuromuscular junction assembly and/or stabilization (Meier et al 1997;Lin et al 2008). In the case of the more widely expressed nonneural ("muscle") agrin splice variants, the interactions appear to allow agrin to serve as a stabilizing collateral link among laminin and the cell surface and underlying cytoskeleton (Moll et al 2001;McKee et al 2009).…”

Section: Agrin and Perlecan Provide Collateral Linkage To Cell Surfacesmentioning

confidence: 99%

Basement Membranes: Cell Scaffoldings and Signaling Platforms

Yurchenco

2010

Cold Spring Harbor Perspectives in Biology

780

775

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Neural Agrin Induces Ectopic Postsynaptic Specializations in Innervated Muscle Fibers

Cited by 124 publications

References 82 publications

Restoration of synapse formation inMuskmutant mice expressing a Musk/Trk chimeric receptor

Restoration of synapse formation inMuskmutant mice expressing a Musk/Trk chimeric receptor

Traumatic Axonal Injury Induces Proteolytic Cleavage of the Voltage-Gated Sodium Channels Modulated by Tetrodotoxin and Protease Inhibitors

Basement Membranes: Cell Scaffoldings and Signaling Platforms

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